Mass is what causes inertia.The relationship between mass and force is given by Newton's Second Law:
force = mass x acceleration
it is not
Inertia can be measured in units of mass, that is, in kilograms. They are related via Newton's Second Law: force = mass x acceleration.
I don't think there is such a force. Your question might refer to "inertia", but of course, inertia is not a force - it is more closely related to mass.
the greater the mass, the greater will be the inertia produced in the body when the force is applied on it.
Centrifugal force does not exist, it is only the objects' inertia trying to keep the object moving in a strait path.
it is not
Inertia can be measured in units of mass, that is, in kilograms. They are related via Newton's Second Law: force = mass x acceleration.
I don't think there is such a force. Your question might refer to "inertia", but of course, inertia is not a force - it is more closely related to mass.
the greater the mass, the greater will be the inertia produced in the body when the force is applied on it.
the greater the mass, the greater will be the inertia produced in the body when the force is applied on it.
Force does not affect inertia in general. Inertia can basically be identified with the mass.
Centrifugal force does not exist, it is only the objects' inertia trying to keep the object moving in a strait path.
Inertia states that an object in motion will stay in motion unless another force acts against this object. The larger the mass the object has, the more force must be used to go against its movement. In this way, mass relates to inertia.
The question doesn't really make sense. Did you mean "How does mass cause a gravitational force" or "How is mass related to inertia" or "How are gravitation and inertia related? Are they separable" or "What is the meaning of mass and the physical cause of it" I have found the best answers to all of those questions to be found in special relativity (inertia) and general relativity (gravitation and its relation to inertia)
I guess that momentum is part of the inertia, inertia is composed of momentum as the pages are related to the book. Inertia will be different if it has different kind of momentum. Force will affect momentum so inertia will change.
Inertia will not be affected when "net" or "net force" is zero.
-- "Inertia" is not a force. -- There is no such thing as a single balanced force or a single unbalanced force.